Inspection of defects of composite materials in inner cylindrical surfaces using endoscopic shearography

 

MACEDO, Fabiano Jorge; BENEDET, Mauro Eduardo; FANTIN, Analucia Vieira; WILLEMANN, Daniel Pedro; DA SILVA, Fábio Aparecido Alves; ALBERTAZZI JR, ARMANDO

PUBLICADO NA OPTICS AND LASERS IN ENGINEERING, v. 98, p. 1-9, 2017. https://doi.org/10.1016/j.optlaseng.2017.06.005

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Resumo

This work presents the development of a special shearography system with radial sensitivity and explores its applicability for detecting adhesion flaws on internal surfaces of flanged joints of composite material pipes. The inspection is performed from the inner surface of the tube where the flange is adhered. The system uses two conical mirrors to achieve radial sensitivity. A primary 45° conical mirror is responsible for promoting the inspection of the internal tubular surface on its 360° A special Michelson interferometer is formed replacing one of the plane mirrors by a conical mirror. The image reflected by this conical mirror is shifted away from the image center in a radial way and a radial shear is produced on the images. The concept was developed and a prototype built and tested. First, two tubular steel specimens internally coated with composite material and having known artificial defects were analyzed to test the ability of the system to detect the flaws. After the principle validation, two flanged joints were then analyzed: (a) a reference one, without any artificial defects and (b) a test one with known artificial defects, simulating adhesion failures with different dimensions and locations. In all cases, thermal loading was applied through a hot air blower on the outer surface of the joint. The system presented very good results on all inspected specimens, being able to detect adhesion flaws present in the flanged joints. The experimental results obtained in this work are promising and open a new front for inspections of inner surfaces of pipes with shearography.

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